V.P. Prilutsky scite author profile

V.P. Prilutsky

5Publications

4Citation Statements Received

0Citation Statements Given

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Institute of Software Systems, E.O. Paton Electric Welding Institute

Publications

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Argon arc welding of titanium VT22 alloy using filler flux-cored wire

Prilutsky¹,

Shvab²,

Petrichenko³

et al. 2016

The Paton Welding J.

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At the present time the use of welded assemblies and structures of high-strength titanium alloys (s t .≥ 1100 MPa) is widened. Moreover, the strength characteristics of welded joints should be at the level of characteristics of alloys. For load-carrying elements of aircrafts of AN type, high-strength two-phase (a + b)-titanium VT22 alloy is used. The aim of the work was the investigation of the influence of reducing the degree of weld metal alloying on its strength characteristics. For this purpose a completely new filler material, namely titanium flux-cored wire, for argon arc welding of VT22 alloy was developed. Despite the decrease in the degree of alloying of weld metal, its strength reaches 1121.5 MPa after the standard heat treatment, which is higher than the level of strength of the base metal (1057.5 MPa). Moreover, the impact toughness amounts to 70-75 % of the base metal impact toughness. 15 Ref., 4 Tables, 6 Figures.

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TIG welding of titanium alloys using fluxes

Prilutsky

Akhonin

2013

Weld World

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Effect of Heat Treatment on the Structure and Properties of Titanium Alloy VT22 Welded Joints Produced by TIG-Welding with Flux-Cored Wire

Prilutsky

Akhonin

Schwab

et al. 2018

MSF

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An important part in affecting the properties of the titanium alloy VT22 is a heat treatment (HT). Annealing of welded joints of the alloy also works as strengthening HT. Depending on the heating temperature, duration of annealing and the cooling rate, different combinations of strength and ductility could be obtained. Annealing is carried out in the VT22 alloy two-phase region (750 - 850 °C) followed by direct or stepwise cooling. This heat treatment results in a maximum heterogeneity of the structure with nearly an equal amount of α and β phases. It also provides a tensile strength of 1100 - 1300 MPa.

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Restoration surfacing of parts of titanium alloy VT22

Prilutsky¹,

Akhonin²,

Shvab³

et al. 2017

Avtom. svarka (Kiev)

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с целью прогнозирования химического состава аэрозолей, образующихся при ручной дуговой сварке, предложена математическая модель конвективного испарения металла с поверхности расплава. Выполнен численный анализ характеристик потока многокомпонентного металлического пара при сварке высоколегированными хромоникелевыми электродами. определены скорости испарения компонентов сварочных аэрозолей при применении электродов для сварки высоколегированных сталей. полученная математическая модель дает возможность рассчитывать не только относительную массовую долю токсичного компонента в аэрозоле, как это было возможно до настоящего времени, но и конвективные потоки компонентов сварочных аэрозолей. Библиогр. 12, табл. 2, рис. 4. К л ю ч е в ы е с л о в а : электродуговая сварка, покрытые электроды, сварочные аэрозоли, химический состав, интенсивность испарения, математическое моделирование

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Influence of conditions of welding pool protection by argon on

Prilutsky¹,

Yeroshenko²

2021

Avtom. svarka (Kiev)

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Токсичність зварювального аерозолю суттєво впливає на вибір типу електродів для дугового зварювання. Сучасні методи дослідження дозволяють встановити вміст в твердій складовій зварювального аерозолю частинок дво-та тривалентного марганцю. Виконані дослідження з метою визначення можливості виявлення присутності іонів найбільш токсичного чотирьохвалентного марганцю в твердій складовій зварювального аерозолю. Показана можливість використання методу РФС аналізу для фіксації іонів марганцю в стані Mn 4+ в зварювальних аерозолях. Бібліогр. 9, табл. 3, рис. 2.

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V.P. Prilutsky

Argon arc welding of titanium VT22 alloy using filler flux-cored wire

TIG welding of titanium alloys using fluxes

Effect of Heat Treatment on the Structure and Properties of Titanium Alloy VT22 Welded Joints Produced by TIG-Welding with Flux-Cored Wire

Restoration surfacing of parts of titanium alloy VT22

Influence of conditions of welding pool protection by argon on

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